Image forming apparatus

ABSTRACT

A data processing apparatus for executing predetermined printing processes to a file has: a display for displaying a plurality of boxes (folders) associated with a plurality of printing processes (for example, 2up, Duplex, Staple) which can be executed to the file; and a mouse for inputting a moving instruction to the file displayed on the display. When it is detected that the file which is moved by the moving instruction input by the mouse has passed through the plurality of boxes (folders) displayed on the display, the printing processes regarding the boxes (folders) through which the file has passed are executed to the file on the basis of the detection result.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The invention relates to an information processing apparatus, itscontrol method, a printing apparatus, and its control method.

2. Related Background Art

Hitherto, a box function which is used in a data processing apparatus,for example, an image forming apparatus is a function for storing datafrom a client computer as if it were filed. The box function has beendeveloped to such various functions that the data is printed when theuser needs it in accordance with necessary settings by using such afunction, the data stored in a box is coupled, security is raised byproviding a password, and the like.

At this time, the function is constructed in such a manner that in thecase of making various data processing requests, icons or the like aredisplayed onto an operation display unit or a setting screen which isdisplayed on the data processing apparatus side so as to enable the userto easily instruct the operation. A data processing apparatus which canexecute a process for associating folders with functions as icons or thelike is disclosed in Japanese Patent Application Laid-Open No.2002-135602.

Japanese Patent Application Laid-Open No. 2002-135602 also discloses animage processing apparatus with a confidential box table having aninstruction text which can conditionally set a processing method forimage data stored in a confidential box every confidential box so that adesired process can be automatically executed to the image data.

However, in the recent market where a large number of copies or a largenumber of jobs called Print On Demand (POD) are handled, the case wheredata is print-processed by using a digital print in place of printinghas been increasing. As compared with the conventional print industry,the digitalization is assimilated, administration and control usingcomputers are penetrating and approaching the level of the printindustry to a certain extent by using the computers.

Particularly, in CRD (Centralized Reproduction Department), PFP (PrintFor Pay), or the like, the apparatus has several routine-workedworkflows in order to process such a large number of jobs. However, thejobs are processed on the basis of predetermined settings or processingflows each time.

There is, consequently, such a problem that even if the techniquesdisclosed in Japanese Patent Application Laid-Open No. 2002-135602 areapplied to, for example, in the case of performing an image processingsetup to a series of flows in the image processing apparatus, the useris forced to execute the complicated operation every setup cannotdetermine a series of flows by the simple operation.

Such a kind of problem is not limited to the image processing apparatusbut is a common problem among various electronic apparatuses,particularly, apparatuses which can decide a series of processes byoperating icons or the like.

SUMMARY OF THE INVENTION

The invention is made in consideration of the above problems and it isan object of the invention to provide an improved information processingapparatus, its control method, a printing apparatus, and its controlmethod.

Another object of the invention is to provide an improved informationprocessing apparatus, its control method, a printing apparatus, and itscontrol method, in which a predetermined printing process can beexecuted to a file by executing a simple operation to the file.

According to one aspect of the invention, there are provided aninformation processing apparatus and its control method in which byinputting a moving instruction to a file and passing through a pluralityof display units regarding a printing process, a predetermined printingprocess is executed to the file.

According to another aspect of the invention, there are provided aprinting apparatus and its control method in which by inputting a movinginstruction to a file and passing through a plurality of display unitsregarding a printing process, a predetermined printing process isexecuted to the file.

Other features and advantages of the present invention will be apparentfrom the following description taken in conjunction with theaccompanying drawings, in which like reference characters designate thesame or similar parts throughout the figures thereof.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute apart of the specification, illustrate embodiments of the invention and,together with the description, serve to explain the principle of theinvention.

FIG. 1 is a conceptual diagram for explaining a construction of an imageprocessing system to which a data processing apparatus showing the firstembodiment of the invention can be applied;

FIG. 2 is a block diagram for explaining a construction of a clientcomputer shown in FIG. 1;

FIG. 3 is a block diagram for explaining a construction of an MFP shownin FIG. 1;

FIG. 4 is a block diagram for explaining the construction of the MFPshown in FIG. 1;

FIG. 5 is a block diagram for explaining a construction of an operationunit of the MFP shown in FIG. 1;

FIG. 6 is a block diagram for explaining the construction of theoperation unit of the MFP shown in FIG. 1;

FIG. 7 is a flowchart showing an example of a first data processingprocedure in the image processing system according to the invention;

FIG. 8 is a diagram for explaining examples of display screens which aredisplayed on LCD display units shown in FIGS. 5 and 6;

FIG. 9 is a diagram for explaining the examples of the display screenswhich are displayed on the LCD display units shown in FIGS. 5 and 6;

FIG. 10 is a diagram for explaining the examples of the display screenswhich are displayed on the LCD display units shown in FIGS. 5 and 6;

FIG. 11 is a flowchart showing an example of a second data processingprocedure in the image processing system according to the invention;

FIG. 12 is a diagram showing an example of a driver setting screen whichcan be displayed on a computer shown in FIG. 1;

FIG. 13 is a diagram showing an example of the driver setting screenwhich can be displayed on the computer shown in FIG. 1;

FIG. 14 is a diagram showing an example of a property screen (GUI) whichis displayed when a property key shown in FIG. 13 is clicked;

FIG. 15 is a diagram showing an example of the property screen (GUI)which is displayed when the property key shown in FIG. 13 is clicked;

FIG. 16 is a diagram showing an example of the property screen (GUI)which is displayed when the property key shown in FIG. 13 is clicked;

FIG. 17, which is composed of FIGS. 17A and 17B, is a flowchart of anexample of a third data processing procedure in the image processingsystem according to the invention;

FIG. 18 is a diagram showing an example of a Web service screen providedin the MFP shown in FIG. 1;

FIG. 19 is a diagram showing an example of the Web service screenprovided in the MFP shown in FIG. 1;

FIG. 20 is a diagram for explaining a detailed construction of a tabsetting screen of a job submit shown in FIG. 18;

FIG. 21 is a diagram showing an example of a job ticket which can be setin the image processing system according to the invention;

FIG. 22 is a diagram showing an example of the job ticket which can beset in the image processing system according to the invention;

FIG. 23 is a diagram showing an example of the job ticket which can beset in the image processing system according to the invention;

FIG. 24 is a diagram showing an example of the job ticket which can beset in the image processing system according to the invention;

FIG. 25 is a diagram showing an example of a detail display screen of aconfiguration tab of a Web Browser screen shown in FIG. 18;

FIG. 26 is a diagram showing an example of the detail display screen ofthe configuration tab of the Web Browser screen shown in FIG. 18;

FIG. 27 is a diagram showing an example of the detail display screen ofthe configuration tab of the Web Browser screen shown in FIG. 18;

FIG. 28 is a diagram showing an example of a detail display screen of aworkflow tab of the Web Browser screen shown in FIG. 18;

FIG. 29 is a diagram schematically showing an example of transition of aworkflow creating operation screen of a data processing apparatusaccording to the invention;

FIG. 30 is a diagram schematically showing an example of transition ofthe workflow creating operation screen of the data processing apparatusaccording to the invention;

FIG. 31 is a diagram schematically showing an example of transition ofthe workflow creating operation screen of the data processing apparatusaccording to the invention;

FIG. 32 is a diagram schematically showing an example of transition ofthe workflow creating operation screen of the data processing apparatusaccording to the invention;

FIG. 33 is a diagram schematically showing an example of transition ofthe workflow creating operation screen of the data processing apparatusaccording to the invention;

FIG. 34 is a diagram schematically showing an example of transition ofthe workflow creating operation screen of the data processing apparatusaccording to the invention;

FIG. 35 is a diagram schematically showing an example of transition ofthe workflow creating operation screen of the data processing apparatusaccording to the invention;

FIG. 36, which is composed of FIGS. 36A and 36B, is a flowchart of anexample of a fourth data processing procedure in the data processingapparatus according to the invention;

FIG. 37 is a diagram schematically showing an example of transition ofthe workflow creating operation screen of the data processing apparatusaccording to the invention;

FIG. 38 is a diagram schematically showing an example of a folderlocation administration table at the time of creation of the workflowwhich is administrated in the client computer shown in FIG. 1;

FIG. 39 is a diagram schematically showing an example of transition ofthe workflow creating operation screen of the data processing apparatusaccording to the invention;

FIG. 40 is a diagram schematically showing an example of transition ofthe workflow creating operation screen of the data processing apparatusaccording to the invention;

FIG. 41 is a diagram showing an example of execution of an applicationin the data processing apparatus showing the fourth embodiment of theinvention; and

FIG. 42 is a diagram for explaining a memory map of a storage medium forstoring various data processing programs which can be read out by theimage processing apparatus according to the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The present invention will now be described in detail with reference tothe drawings showing preferred embodiments thereof. In the drawings,elements and parts which are identical throughout the views aredesignated by identical reference numerals, and duplicate descriptionthereof is omitted.

First Embodiment

FIG. 1 is a conceptual diagram for explaining a construction of an imageprocessing system to which a data processing apparatus showing the firstembodiment of the invention can be applied and shows a constructionalexample of a relatively simple network system.

In FIG. 1, there are a server computer 102 and client computers 103 a,103 b, and 103 c as computers and the server computer 102 administratesthose client computers 103 a, 103 b, and 103 c. Although not shown, anumber of client computers are connected besides those client computersand there is a case where the client computers are represented byreference numeral 103 hereinbelow.

MFPs (Multi Function Peripherals) 104 and 105 (105 a to 105 d) and aprinter 107 are connected to a network 101.

The MFP 104 is a full color MFP which can executes the operation such asscanning, printing, or the like in full color of high resolution andhigh gradation. When a data amount is very large, the MFP 104 cansimultaneously transmit and receive a plurality of bits by anindependent interface (a dedicated I/F unit 205, which will be explainedhereinafter). The MFP 105 is a monochromatic MFP for executing theoperation such as scanning, printing, or the like in monochromaticcolor. Although not shown, other apparatuses such as scanner, printer,facsimile apparatus (FAX), etc., as well as the MFPs other than thosementioned above are also connected to the network 101.

Further, a scanner 106 is an apparatus for fetching an image from apaper document. Besides the scanner 106 connected to the network asshown in the diagram, there are scanners connected to the computer bySCSI interfaces or the like. There is also a case where the scanneritself is supported as a part of functions of the MFP 105.

On the client computer 103, application software for executing what iscalled DTP (Desk Top Publishing) is made operative and variousdocuments/figures are created/edited. The client computer 103 convertsthe created documents/figures into a PDL (Page Description Language) andsends it to the MFP 104 or 105 through the network 101, thereby printingout.

<Constructions of the MFPs 104 and 105>

Constructions of the MFPs 104 and 105 will now be described. Since thereis a difference of the full color and the monochromatic color betweenthe MFPs 104 and 105 and the construction of the full color apparatusoften contains the construction of the monochromatic apparatus withrespect to portions other than color processes, the full color apparatuswill be mainly explained here and an explanation of the monochromaticapparatus is added at any time as necessary.

<Construction of the Server>

FIG. 2 is a block diagram for explaining the construction of the clientcomputer (data processing apparatus) 103 shown in FIG. 1 and the samecomponent elements as those in FIG. 1 are designated by the samereference numerals.

In the diagram, reference numeral 1031 denotes a CPU for collectivelycontrolling devices connected to a CPU bus 1039 on the basis of controlprogram codes held in a ROM 1032. Reference numeral 1033 denotes a RAMwhich functions as a temporary storage memory which is used by the CPU1031. The RAM 1033 is constructed in such a manner that a memorycapacity can be expanded by an optional RAM which is connected to anexpansion board (not shown).

The RAM 1033 is also used to store a draw object formed as print data orused as a work memory or the like that is temporarily used by thecontrol program held in the ROM 1032.

Reference numeral 1034 denotes a media drive serving as an accessinterface with various media such as flexible disk, CD, and DVD; 1035 ahard disk (HD) in which various programs, data, and the like are stored;1036 a keyboard mouse serving as an interface unit for receiving aninput from the user; 1037 a display serving as an output unit fortransmitting information to the user; and 1038 a peripheral interfaceunit for bidirectionally connecting communication to a peripheral suchas a printer or the like through the network.

Reference numeral 1039 denotes a CPU bus including address/data/controlbuses. The ROM 1032, RAM 1033, media drive 1034, HD 1035, keyboard/mouse1036, display 1037, and peripheral I/F unit 1038 can access all of thedevices connected to the CPU bus 1039, respectively.

The peripheral I/F unit 1038 can communicate with the MFP 104 throughthe network 101.

The CPU 1031 is constructed in such a manner that a Web browser isactivated in accordance with the program and data stored in the harddisk 1035 and in the state where the folders and files with whichfunctional processes as shown in FIGS. 29 to 35, which will be explainedhereinafter, are associated are displayed, the user drags the file andcontinuously executes the operating instruction for tracing on thefolder on which a desired functional process is shown by using, forexample, a pointer as a guide (for example, in accordance with aprocedure shown in FIGS. 36A and 36B), a series of data processes isdisplayed in a workflow field in which they have been registered so asto be mutually associated and, thereafter, he can execute the registereddata processes.

The CPU 1031 also makes such control that the functional information(for example, MIB) of the MFP shown in FIG. 3 which can be communicatedwith is obtained, a location of the folder which can be selected andexecuted and a folder functional process are allocated, and a layout ofthe folder is determined.

The above processes are not limited to a specific OS but can be realizedby various OSs including a UI-like operating process and the apparatusesare not limited to the image processing system and the like, which willbe explained hereinafter.

<Construction of the Devices>

FIG. 3 is a block diagram for explaining the constructions of the MFPs104 and 105 shown in FIG. 1. In this example, the MFPs 104 and 105 areconnected to the client computer 103 through the LAN (Local AreaNetwork) 101 such as Ethernet(™).

In FIG. 3, each of the MFPs 104 and 105 is constructed by: a reader unit1022 for executing a reading process of image data; a printer unit 1025for executing an outputting process of the image data; an operation unit1021 having a keyboard to execute an input/output operation of the imagedata and a liquid crystal display (LCD) panel for executing adisplay/setup or the like of the image data and various functions; animage storage unit 1023 which can store/hold the image data read out bycontrolling the reader apparatus 1022 and the image data which iscreated from code data received by the client computer 103 through theLAN 101; and further, a controller unit 1024 to which a finishing unit1029 for discharging print paper can be attached and which is connectedto each of those component elements and controls them.

The reader unit 1022 has: an original feeding unit 1040 for conveying anoriginal sheet; and a scanner unit 1041 for optically reading theoriginal image and converting it into image data as an electric signal.The printer unit 1025 has: a paper feeding unit 1028 having a pluralityof paper feeding cassettes for enclosing recording sheets; a markingunit 1026 for transferring/fixing the image data onto a recording sheet;and a paper discharge unit 1027 for executing a reversing process or thelike of the printed recording sheet and conveying it to the finishingunit.

The finishing unit 1029 has: an intermediate unit 1043 for temporarilystacking the sheets every job or bundle of sheets; and an optional paperdischarge unit 1042 for executing a finishing work such as staple, joboffset, or the like and finally stacking printed matter.

The controller unit 1024 provides a copying function for reading theimage data of the original by controlling the reader unit 1022 andoutputting the image data to the recording sheet by controlling theprinter unit 1025. The controller unit 1024 has functional blocks suchas: network scanner function for converting the image data read out fromthe reader unit 1022 into code data and sending it to the clientcomputer 103 through the network 101; network printer function forconverting a draw command such as a PDL or the like or the code datawhich was received from the client computer 103 through the network 101into the image data and outputting it the printer unit 1025; and thelike.

The controller unit 1024 further has a finishing functional block forexecuting the operation such as stacking, staple, booklet, or job offsetto the sheets printed by the copying function, network printer function,or the like and can sort or modify the sheets on a unit basis of acertain bundle.

The controller unit 1024 has a communication I/F equivalent to theperipheral I/F unit 1038 or the like shown in FIG. 2 and can communicatewith the client computer 103.

FIG. 4 is a block diagram for explaining the construction of each of theMFPs 104 and 105 shown in FIG. 1.

In FIG. 4, the MFP comprises: a scanner unit 201 for reading an image; ascanner IP unit 202 for image-processes the image data; a FAX unit 203represented by a facsimile apparatus for transmitting and receiving theimage by using a telephone line; an NIC (Network Interface Card) unit204 for transmitting and receiving the image data and apparatusinformation by using the network; and the dedicated I/F unit 205 forexchanging the information with the full color MFP 104. In accordancewith a using method of the MFPs 104 and 105, a core unit 206 makescontrol so as to temporarily store the image signal in an interlockingrelational manner with a memory unit 211 or a box unit 212 which is usedby dividing the memory unit 211 or determine a path.

Subsequently, the image data output from the core unit 206 is sent via aprinter IP unit 207 and a screening unit 208 to a printer unit 209 forforming an image. The sheet which was printed out by the printer unit209 is conveyed to an online finisher unit 210 and subjected to a sheetsorting process or a sheet finishing process.

The core unit 206 makes traffic control of the bus and paths areswitched as shown in (A) to (I) as follows in accordance with the usingmethod of the MFP. It is also generally known that when the data ispassed via the network, compression data obtained by the system such asJPEG, JBIZ, ZIP, or the like is used. After the data enters the MFP, itis decoded (decompressed) in the core unit.

For example, the path (A) at the time of the copying function is set to(the scanner unit 201→the core unit 206→the printer unit 202). The path(B) at the time of the network scanner function is set to (the scannerunit 201→the core unit 206→the NIC unit 204). The path (C) at the timeof the network printer function is set to (the NIC unit 204, the coreunit 206→the printer unit 209). The path (D) at the time of the FAXtransmitting function is set to (the scanner unit 201→the core unit206→the FAX unit 203). A path (E) at the time of the FAX receivingfunction is set to (the FAX unit 203÷the core unit 206→the printer unit209). A path (F) at the time of the box receiving function is set to(the NIC unit 204→the core unit 206→the memory unit 211). A path (G) atthe time of the box receiving function is set to (the scanner unit201→the core unit 206→the memory unit 211). A path (H) at the time ofthe box transmitting function is set to (the memory unit 211→the coreunit 206→the NIC unit 204). A path (I) at the time of the boxtransmitting function is set to (the memory unit 211→the core unit206→the printer unit 209).

The box reception/box transmission denotes the input and storage of thedata using the box unit 212 or the output of the stored data and are afunction for dividing the memory every job or every user, temporarilystoring the data, and transmitting and receiving the data in combinationwith a user ID and a password.

Further, an RIP (Raster Image Processor) unit 213 plays a role fordeveloping the PDL data input from the NIC unit 204 into a bit map imageas necessary.

Reference numeral 214 denotes an operation unit having an LCD displayunit 300 with a touch-panel structure. In this operation unit,information necessary for setting various modes and a status of themachine are displayed and controlled under the control of the core unit206. In FIGS. 5, 6, and the like, which will be explained hereinafter,although the LCD display unit 300 is shown as an LCD display unit 2200,they are equivalent.

<Operation Unit>

FIGS. 5 and 6 are block diagrams for explaining a construction of theoperation unit of each of the MFPs 104 and 105 shown in FIG. 1.

In FIG. 5, the operation unit comprises the LCD (Liquid Crystal Display)unit 2200 of the touch-panel structure and a key operation unit 2230.FIG. 7 shows a flowchart showing a data processing procedure of the LCDdisplay unit 2200.

FIG. 7 is the flowchart showing an example of a first data processingprocedure in the image processing system according to the invention andcorresponds to a display processing procedure which is executed by thecore unit 206 shown in FIG. 4. S2100, S2110 to S2113, S2120 to S2123,S2130 to S2133, S2140 to S2143, and S2150 to S2153 denote processingsteps, respectively.

First, a mode selection status is discriminated (S2100). If it is a copymode to execute the copying operation, the system enters the copy mode(S2110). If it is determined to be a transmission mode, the systementers a transmission (sending) mode to perform the scan transmission(S2120). If it is determined to be a box mode, the system enters the boxmode to fetch data from a box or edit it (S2130). If it is determined tobe an option mode, the system enters the option mode to perform varioussetups (S2140). If it is determined to be a system monitor, the systementers the system monitor to recognize a system condition (S2150).

Particularly, when the system enters the copy mode, a copy screen isdisplayed onto the LCD display unit 2200 of the operation unit in stepS2111. The copy setting from the user is received in step S2112. Thescanner units and the printer units of the MFPs 104 and 105 arecontrolled on the basis of set copy conditions and a copying process isexecuted in step S2113. The processing routine is finished.

When the system enters the transmission mode, it shifts to thetransmission mode of step S2120. A transmission screen is displayed ontothe LCD display unit 2200 of the operation unit in step S2121. Thetransmission setting from the user is received in step S2122. Theread-out image data is transmitted through the communication controlunit and the network on the basis of set transmission conditions in stepS2123. The processing routine is finished.

When the system enters the box mode, the system shifts to the box modeof step S2130. A box screen is displayed onto the LCD display unit 2200of the operation unit in step S2131. The box setting from the user isreceived in step S2132. The data is stored or read out into/from anon-volatile storage apparatus (box unit 212) such as a hard disk or thelike in each of the MFPs 104 and 105 on the basis of set box conditionsin step S2133. The processing routine is finished.

If it is determined in step S2100 that the option mode is selected, thesystem shifts to the option mode of step S2140. An option screen isdisplayed onto the LCD display unit 2200 of the operation unit in stepS2141. The option setting from the user is received in step S2142.Optional processes for the MFPs 104 and 105 are confirmed on the basisof set option conditions in step S2143. The processing routine isfinished.

If it is determined in step S2100 that the system monitor is selected,the system shifts to the system monitor of step S2150. A systemcondition is displayed on the screen of the LCD display unit 2200 of theoperation unit in step S2151. The system setting from the user isreceived in step S2152. The set system setting condition is confirmed instep S2153. The processing routine is finished.

In the embodiment, those modes are switched by pressing, for example,mode select keys 2201 to 2205 in the LCD display unit 2200 shown in FIG.5 in accordance with the selection result of each mode.

In FIG. 6, by setting a paper size, a zoom ratio (magnification), animage mode, a finishing method, and the like in addition to the numberof copies and pressing a start key 2231, the copying operation can beexecuted.

The display screen shown in FIG. 6 is a screen displayed when a box modekey 2203 is pressed. The box mode comprises a user box 2301, a systembox 2302, a FAX box 2303, a workflow box 2304, and the like. By pressingthose keys, each box is displayed in the LCD display unit 2200.

The-display screen shown in FIG. 6 also shows the state where theworkflow box 2304 has been selected. Reference numeral 2311 denotes eachworkflow box. For example, 100 independent boxes “00 to 99” areprepared. Each individual workflow can be set into each box by afunction key 2312.

<Setting of the Workflows>

FIGS. 8 to 10 are diagrams for explaining examples of the displayscreens which are displayed on the LCD display unit 2200 shown in FIGS.5 and 6.

In FIG. 6, by pressing the function key 2312, a setting screen of theworkflow as shown in FIG. 8 is displayed on the LCD display unit 2200.At first, nothing is stored in the workflow and the workflow is formedby using a number key 2401 and an insert key 2413. If the user wants torewrite the flow which has already been registered, the number key 2401is selected and the flow is edited by a modify key 2414. If the userwants to delete the flow, it is erased by the number key 2401 and adelete key 2415.

If the user wants to see detailed contents of the formed flow, thedetailed contents can be confirmed by pressing the number key 2401 and adetail key 2412.

The creation and editing are executed by using a print key 2416, a scankey 2417, a send key 2418, a box key 2419, and a notify key 2420. Thatis, in the case of setting the print function as a workflow, by pressingthe print key 2416, a UI as shown in FIG. 9 appears, desired items canbe set by various application modes 2508 provided for the MFP 104 (or105) as well as a numeral 2503, paper sizes 2504 and 2505, a finishingmethod, 2506, and two sided (duplex) 2507. Some of those functions canalso be combined and set.

Similarly, in the scan key 2417, a workflow of the scan function can beset. In the send key 2418, automatic transmission, broadcasttransmission, or the like can be set. In the box key 2419, a workflow ofthe box reception or box transmission can be set. Further, by pressingthe notify key 2420, a display screen as shown in FIG. 10 appears and anevent 2602, a process 2603 at this time, to whom the event is notified2604, its E-mail address 2605, and the like can be set. For example, ifa paper jam occurs, a mode to wait until the paper jam is cleared, amode to transfer the job to another printer, a mode to notify theoperator of the occurrence of the paper jam, a mode to report a personwho input the job, or the like can be preset. Such a series ofprocessing flows is shown in a flowchart shown in FIG. 11.

FIG. 11 is a flowchart showing an example of a second data processingprocedure in the image processing system according to the invention andcorresponds to a workflow processing procedure. S2701 to S2709 and S2711to S2726 denote processing steps.

First, a flow order (N) is selected in step S2701 and the contents ofthe selected process are discriminated in step S2702. If it isdetermined that the process is an insertion mode, the system enters theinsertion mode in step S2703. A new flow is added to the flow (N) (ifthe flow (N) already exists, the existing flow (N) is shifted to the(N+1)th) in step S2706 and the processing routine advances to stepS2709.

If it is determined to be an editing mode in step S2702, the systementers the editing mode, the Nth flow is corrected in step S2707, andstep S2709 follows.

If it is determined to be a deletion mode in step S2702, step S2705follows. The system enters the deletion mode, the Nth flow is deleted instep S2708, and step S2726 follows.

The selected mode is discriminated in step S2709. If it is determined tobe a print mode (S2711), a print screen is displayed onto the LCDdisplay unit 2200 (S2716), and print setting is performed (S2721).

The selected mode is discriminated in step S2709. If it is determined tobe a scan mode (S2712), a scanner screen is displayed onto the LCDdisplay unit 2200 (S2717), and scan setting is performed (S2722).

The selected mode is discriminated in step S2709. If it is determined tobe a transmission mode (S2713), a transmission screen is displayed ontothe LCD display unit 2200 (S2718), and transmission setting is performed(S2723).

The selected mode is also discriminated in step S2709. If it isdetermined to be a box mode (S2714), a box screen is displayed onto theLCD display unit 2200 (S2719), and box setting is performed (S2724).

The selected mode is discriminated in step S2709. If it is determined tobe a notify mode (S2715), a notification screen is displayed onto theLCD display unit 2200 (S2720), and notification setting is performed(S2725).

The above operation is repetitively executed in accordance with theorder of the workflow in step S2726 until the flow setting is finished.

<Scanner Driver>

FIG. 12 is a diagram showing an example of a driver setting screen whichcan be displayed on the client computer 103 (or 102) shown in FIG. 1 andrelates to an example showing a GUI (Graphic User Interface) of thescanner driver for instructing, for instance, the scan operation. Byinstructing it, the user can indicate desired setting parameters andconvert a desired image into image data.

In FIG. 12, reference numeral 3121 denotes a window of the scannerdriver and 3122 indicates a source device selection column to select atransmitting source serving as a target as a setting item in the window3121. Although it is generally a column like a scanner unit 201 asmentioned above, the image data can be also input from a device such asa digital camera.

Reference numeral 3123 denotes a property key which is clicked in thecase of performing the detail setting regarding the selected sourcedevice. By pressing this key, the user can input set informationpeculiar to the device on another display screen, select a special imageprocess (for example, character mode/photograph mode), and input animage in a processing mode according to it.

Reference numeral 3124 denotes a scan selection column which enables theuser to select the fetching from a flat bed or an ADF (Auto DocumentFeeder). Reference numeral 3125 denotes a scan selection column whichenables the user to instruct either a simplex (one sided) original or aduplex (two sided) original in the portion to instruct a reading surfaceof the original. Reference numeral 3126 denotes a scan selection columnwhich enables the user to select an image size.

Reference numeral 3127 denotes a scan selection column which enables theuser to input a numerical value of resolution at the time of reading theoriginal. Reference numeral 3128 denotes a scan selection column whichenables the user to select one of a simple binary, a dither method, anerror diffusion, a multivalue (8 bits), and the like as a halftone modefor the image data to be read out.

Reference numerals 3129 and 3130 denote page setting buttons whichenable the user to alternatively select either the mode for scanning allpages or the mode for scanning only the designated page when the ADF isused. Reference numerals 3131 to 3133 denote image area setting columnsserving as a portion to decide a size of image area. This column enablesthe user to input a unit, a width length, and a height length,respectively.

After those items are designated, when a prescan key (SCAN) 3136 isclicked, an instruction is made by the client computer 103 (or theserver computer 102) to the device selected in the source deviceselection column 3122 and the image input is started. Since the prescanis performed here, the image is more coarsely read out than the actualresolution and the obtained image is displayed as a preview image 3134onto a display unit 3135. Upon displaying, the image is scale-displayedon a unit 3131 basis of the image area mentioned above.

If it is determined to be OK from the preview image here, by clicking ascan key 3137, the scan operation is started. Upon starting, a dialog toinput a file name and a directory name for storing a scan file appears.After those names are input, by clicking an OK key, the scan image isstored. If it is determined to be NG from the preview image, the prescanis executed and the preview image is confirmed again. In the case ofcancelling, a cancel key 3138 is clicked.

<Printer Driver Unit>

The printer driver will be described hereinbelow.

FIG. 13 is a diagram showing an example of the driver setting screenwhich can be displayed on the client computer 103 (or 102) shown in FIG.1 and corresponds to an example of the printer driver screen on theclient computer 103 (or 102). By instructing the printer driver by a GUI(GUI which is displayed in the case where a display of a propertyregarding “printer” is instructed on the print setting GUI which isdisplayed in the case where the printing is instructed from theapplication or the like) for instructing the print operation, the usercan instruct desired setting parameters and send the desired image to atransmission destination such as a printer or the like.

In a window of the printer driver shown in FIG. 13, reference numeral3211 denotes a transmission destination selection column for selectingan output destination serving as a target. In the embodiment, the MFPs104 and 105 shown in FIG. 1 become selection targets.

Reference numeral 3213 denotes a page setting column for selecting anoutput page from the jobs. In this column, the user determines whichpage in the image formed by application software that operates on theclient computer 103 should be output.

Reference numeral 3214 denotes the number of copies setting column fordesignating the number of copies. By moving a pointer to this positionand clicking an arrow (arrow of a scroll bar) shown, an increase ordecrease in the number of copies can be set. Reference numeral 3212denotes a property key which is instructed in the case of performing thedetail setting regarding the transmission destination device selected inthe transmission destination selection column 3211. By instructing thiskey, the display screen shown in each of FIGS. 14 to 16 is displayed onthe LCD display unit 2200.

After completion of the desired settings, the printing is started byclicking an OK key 3201. In the case of cancelling it, the printing isstopped by clicking a cancel key 3202.

FIGS. 14 to 16 are diagrams each showing an example of a property screen(GUI) which is displayed when the property key 3212 shown in FIG. 13 isclicked.

Those display screens are provided with tabs such as “Output,” “Paper,”“Graphics,” “Device Options,” “PDL,” and the like. By clicking(instructing with a pointing device or the like (not shown)) them,different setting contents such as “Output,” “Paper,” “Graphics,”“Device Options,” “PDL,” and the like can be set.

In the display screen shown in FIG. 14, the output destination can beselected from an output destination column 3311 and also thrown into abox besides the printer output. Besides the user box, there is also aworkflow box, which will be explained hereinafter. If the user box orthe workflow box is selected, the box number is also input. Referencenumeral 3312 denotes a box number selection column and 3301 to 3305indicate tabs mentioned above.

In the display screen shown in FIG. 15, a display example in the casewhere the “Paper” tab is selected is shown and a paper size, a pagelayout, an orientation of the paper, and the like can be set here. Whenthe “Device Options” tab is selected, it is possible to make fineradjustment of processes regarding the image process so as to change setinformation peculiar to the device, for example, parameters such assetting of finishing like a staple or the like, a color hue by theprinter, and the like.

As shown in FIG. 16, upon selection, functions 3331 and their set values(settings) 3332 are set to desired values, respectively. Referencenumeral 3333 denotes a default key to return the set values to initialvalues.

Although not shown, similarly, in the “Graphics” tab, resolution andhalftone can be set and in the “PDL” tab, an output format or the likeof the PDL can be selected.

Further, reference numeral 3341 denotes an OK key. By clicking(instructing) this key, the property setting is validated and thedisplay screen is return to the display screen shown in FIG. 14.Reference numeral 3342 denotes a cancel key. By clicking (instructing)this key, the property setting is invalidated and the display screen isreturn to the display screen shown in FIG. 12. Further, referencenumeral 3343 denotes an apply key. By clicking (instructing) this key,the property setting is validated with the property screen held.

Ordinarily, the printer driver can input the set values or the likewhich appeared in the “Device Options” tab and are peculiar to thedevice. With respect to the set values peculiar to the device,generally, it is necessary to prepare a PPD (PostScript(™) PrinterDescription) file or the like and set the printer driver.

Setting items to control the printer and their initial values orinformation showing permission or inhibition of a combination of thesettings, and the like are described in the PPD file. The PPD file isprovided as a file peculiar to every printer. The operator has to linkthe PPD and the driver and prepare them in his own computer everyprinter or cluster. It should be noted here that the PDP file one-to-onecorresponds to the printer whose functions have previously been known.

A flow in the case where the job has been input from the printer driverwill now be described with reference to a flowchart shown in FIGS. 17Aand 17B.

FIG. 17, which is composed of FIGS. 17A and 17B, is a flowchart showingan example of a third data processing procedure in the image processingsystem according to the invention and corresponds to, for example, a jobprocessing procedure between the client and the MFP. S3501 to S3505correspond to processing steps in the driver unit of the client side.S3511 to S3517 correspond to processing steps in the Web browser unit ofthe client side. S3531 to S3540 correspond to processing steps of theMFP side.

Steps S3501 to S3505 show such operations that the application is opened(S3501), the driver is opened (S3502), a desired function is set(S3503), and when the OK button is clicked (S3504), and the data isrewritten to PDL data (for example, PS data). The printer driver hasroles for creating the PDL data and transmitting the data to a presetport of the MFP. In the client computer 103, this port is previouslyregistered upon setting of the printer driver. That is, the printerdriver which operates on the client side converts the print target datasent from the application into the PDL data and, thereafter, inputs itto the port prepared for the MFP 104 or 105 (it is temporarily held in ahot folder unit 3522 of the MFP side).

On the MFP side, a hot folder is prepared for the input job and thepresence or absence of the file is always confirmed (S3531). If it isdetermined that the job exists (S3532), necessary processes are started.

At this time, whether or not the destination of the necessary processesis the user box (personal box) is discriminated (S3533). If it isdetermined that the destination is the personal box, the data is storedin the box unit 212 (S3538). The processing routine is finished.

If it is determined in step S3533 that the destination is not thepersonal box, whether or not the destination of the necessary processesis the workflow box is discriminated (S3534). If it is determined thatthe destination is the workflow box, functions or processes as will beexplained hereinafter are scheduled (S3539). Settings or processes of apredetermined job ticket are registered as necessary (S3540) and theprocessing routine advances to step S3535 and subsequent steps.

If it is determined in step S3534 that the destination is not theworkflow box, it is determined that the destination is the printer. Thejob is scheduled (S3535) in accordance with the set information (jobticket) of the job which has ordinarily been sent together. This job isanalyzed and developed (RIP) into a raster image (S3536) and printedfrom the MFP 104 or 105 (S3537). The processing routine is finished. Theprocesses in step S3511 and subsequent steps in FIG. 17, which iscomposed of FIGS. 17A and 17B, will be explained hereinafter.

<Web Server Unit>

A Web server program represented by, for example, IIS(™) (InternetInformation Services) of Microsoft Corporation in U.S.A. operatessimultaneously in the MFP 104 or 105. In response to a call by an httpprotocol from the client computer 103 or the server computer 102, thecurrent status of the MFP 104 or 105, the information of the job, andthe like can be informed.

FIGS. 18 and 19 are diagrams each showing an example of a Web servicescreen provided in the MFP 104 (or 105) shown in FIG. 1. The system hasbeen preset in such a manner that when an IP address (for example,assumed to be “192.168.100.11” here. In the case of an environment inwhich a DNS is supported, a name of the MFP can be also used) of the MFPis input into a URL address unit, this service screen is read and a Webbrowser is activated and displayed in the display unit of the clientcomputer 103.

This service tool is constructed by tabs of a job status 4101, a devicestatus 4102, a job submit 4103, a configuration 4104, a workflow 4105,and a help 4106 in which a manual of this service has been inserted andwill be sequentially explained from the job status.

<Job Status Tab 4101>

In FIG. 18, the job status tab 4101 is constructed by a job statusdisplay unit 4122 of active jobs and a job history display unit 4123.Since all active jobs cannot be displayed, they are displayed byclicking a key 4120 as necessary. All job histories can be referred toby clicking a key 4121. Detailed information of each job can be seen byclicking the detail key 4124.

Subsequently, in the job status display unit 4122, the status of eachjob in the MFP can be monitored and expressed by Spooling (the databefore the RIP is being received), Ripping (under RIP), Wait to Print(under print standby), or Printing (under printing). The job to whichthe standby has previously been instructed in the MFP when the job isinput is held as “Hold” in the state before the RIP of the data. When anerror or a paper jam occurs, such a fact is displayed and notified tothe user.

After the printing, the data is sent to the next job history (finishedjob). The MFP inquires the status of each network device at everypredetermined period and/or when there is a change in its own status,each network device notifies the MFP of it, thereby coping with such asituation.

The operator can see the history of the job by the job history displayunit 4123 and in the case where the processing routine is normallyfinished, “Printed” is shown. When the printing is cancelled on the way,“Cancelled” is shown.

<Device Status Tab 4102>

A standardized database called MIB (Management Information Base) hasbeen constructed in a network interface unit in the MFP 104 or 105 orthe printer 107. The system can communicate with computers on thenetwork through a network management protocol called SNMP (SimpleNetwork Management Protocol) and exchange necessary information such asstatuses of the devices as well as the MFPs 104 and 105 connected ontothe network with the server computer 102 or the client computer 103.

On the client computer 103 side, as shown in FIG. 19, the device statustab 4102 is opened, for example, it is possible to detect that thefinisher unit 210 having which kind of function has been connected asequipment information of the MFPs 104 and 105, and as statusinformation, whether or not the error or paper jam has occurred atpresent and whether or not the printer is in the state of printing,idling, or the like is detected. It is possible to obtain every staticinformation such as equipment information of the MFPs 104 and 105,status of the apparatus, setting of the network, details of the job,management of the use condition, control, and the like (refer to adevice status image 4201).

The document server fetches the statuses of the MFPs and the like byusing the MIB at any time and updates them as an HTML file, therebyenabling the statuses to be always browsed by the client.

In FIG. 19, a paper size 4202 of sheets enclosed in the device which ismanaged by the MFP and a supplement condition of the sheets (a residualsheet amount in each sheet stacker or cassette) can be confirmed or anaccessory condition 4203 of the finisher and the like equipped for eachdevice can be previously confirmed by the tab showing the device status(device status image 4201).

The residual sheet amount is detected by a dedicated sensor. Since it isdifficult to detect it at precision of one recording paper, the minimumunit at the time of the detection is set to, for example, about 10sheets of paper. The absence of the paper can be certainly detected.

Further, reference numerals 4211 to 4214 denote a user box, a FAX box,an E-mail box, and a workflow box in the MFP, respectively, and asituation showing whether or not the jobs exist in those boxes can beknown.

<Job Submit Tab 4103>

The Job submit tab will now be described with reference to FIG. 20.

FIG. 20 is a diagram for explaining a detailed construction of a tabsetting screen of the job submit shown in FIG. 18. Although its usingmethod is similar to that of the printer driver mentioned above, thissetting screen is used for directly inputting (the following additionalinformation is attached to a document file as a print target and theresultant file is transferred or copied) the file on the client computer103 into the MFP 104 or 105 without opening the application (withoutinstructing to print on the application).

That is, the printer driver ordinarily has two roles. One of them is arole for activating the data by the application on the client computer103 and converting it into the PDL data such as PostScript(™) (or PCL)or the like and the other is a role for inputting the converted PDL datainto the MFP 104 (or 105) (or the printer). This is because theconventional RIP process can cope with only one kind of RIP process.

However, on the other hand, although the job submit has only a role forinputting-the job together with the job ticket by using the GUI, inrecent years, an apparatus which can RIP-process data in various formats(for example, PDF, TIFF, JPEG, etc.) as well as PS by the same softwareRIP module has been proposed. There is also an apparatus which has aplurality of kinds of software RIP modules (for example, PS and PCL) inthe MFP 104 (or 105) and can switch and use the RIP modules inaccordance with the data. Even if not only one kind of PDL but also datain various formats (for example, PDF, TIFF, JPEG, etc.) or various PDLdata are directly sent to the MFP 104 (or 105), they are RIP-processedand developed into bit map data in a manner similar to the conventionalsingle PDL data.

In the case of the printer with the RIP processing function of the typewhich handles only the PS data instead of the bit map data because ofconvenience of the interface of the MFP 104 (or 105), the MFP 104 (or105) develops the PS data into the bit map data by the RIP process andsubsequently image-compresses the bit map data by JBIG or G4 (CCITT).After that, a header (header indicative of the PS data) such as PS orthe like is added to the compressed data and the resultant data isoutput to the MFP. Consequently, it is also possible to realize theprinting of the data in various formats for various printers.

As setting items which are added by the job submit, reference numeral4300 denotes a select source column showing a location of the fileserving as a source. In addition to the file on the client computer 103,the files in the user box and the like can be also set. Referencenumeral 4301 denotes a select destination (transmission destinationselection) column for selecting an output destination serving as atarget.

Generally, although the target apparatus is the MFP 104 (or 105) or theprinter 107 mentioned above, a cluster printer, which will be explainedhereinafter, can be also set. Reference numeral 4311 denotes a selectfile column for selecting the file. Although the file name can be alsodirectly instructed together with the directory, the job file in its owncomputer (or in the network) of the MFP is generally selected by aBrowse button shown in a right position.

By clicking a print key 4307 after such a setup is performed, the setcontents and the designated file are transferred to the MFP 104 (or 105)and added (queued) as a print job.

A print flow at this time corresponds to steps S3511 to S3517 shown inFIGS. 17A and 17B. When the Web Browser is activated in the clientcomputer 103 or the server computer 102 and the URL of the MFP 104 (or105) is set, the screen as shown in FIG. 20 is displayed. By clickingthe print key 4307 after necessary items are input, the designated jobis sent to a predetermined hot folder 3523. The sent job is processed ina manner similar to the file from the printer driver mentioned above.

<Job Ticket>

In FIG. 20, reference numeral 4312 denotes a column called a job ticket.It denotes a file in which setting items other than the image data ofthe job are collected together with the job.

In the embodiment, for example, the detailed setting items of each jobticket are classified into several groups as follows and varioussettings can be performed.

-   -   1. General setting (General): the number of copies, paper size,        paper feeding stage, media type, presence or absence of the        duplex mode, etc. (refer to a column 4321 shown in FIG. 20)    -   2. Job control (Job): priority of the job, presence or absence        of the job save, etc. (refer to a column 4322 shown in FIG. 21)    -   3. Finishing (Finishing): staple, punch, booklet, etc. (refer to        a column 4323 shown in FIG. 22)    -   4. Image processing setting (ImageQuality=IQ): sharpness,        brightness, toner reduction setting, etc. (refer to a column        4324 shown in FIG. 23)    -   5. Color setting (Color): setting of a gamma conversion table,        setting of an ICC profile, etc. (refer to a column 4325 shown in        FIG. 24)

Since this job ticket has such an advantage that not only there arepeculiar setting items in each device but also, the operation can besmoothly executed if they are prepared, besides the call key 4312 of thejob ticket, as shown at 4313, there are a save key to hold the jobticket which has arbitrarily been set (in order to use the job ticketagain), a save as key which can hold the job ticket by newly adding aname thereto, and a delete key to delete the job ticket. A reset key4308 of the job ticket is also prepared in order to return the jobticket to a default state.

The setting of the job ticket for every setting item classified abovewill now be described. By clicking a finishing key 4304, a GUI shown inFIG. 22 is displayed. For example, ON and OFF are prepared in thesetting column of staple. If it is set to ON, the job is stapled andoutput. If it is set to OFF, the job is output as it is. The system hassuch a mechanism that if the printer without the staple function isselected, this item itself is not displayed or ON cannot be selected.

The items of higher frequencies are prepared among the default settingitems. In the case where the user settings are different from them, ifthe job ticket has been registered, they appear as defaults of the userhimself.

The items which are set here are not limited to the general setting andthe finishing function but, for example, when a job control key 4303 isclicked, the column 4322 in FIG. 21 is displayed in the position of thecolumn 4321 and the setting for the job control can be performed.Similarly, if the finishing column 4304 shown in FIG. 20 is clicked adisplay screen shown in FIG. 22 is displayed.

Similarly, if an image process key 4305 is clicked, a display screenshown in FIG. 23 is displayed. If a color key column 4306 is clicked, adisplay screen shown in FIG. 24 is displayed. Their parameters and thefunctions of the printer can be selected and changed.

When the print key 4307 in FIG. 20 is clicked after the desired settingis made, if the file of the print target set in the job submit 4103 andthe job ticket have been set, the set contents are transferred to theMFP 104 (or 105).

<UI Constraints>

Restriction items corresponding to UI constraints in the PPD file of theprinter driver can be provided for each setting item in those jobtickets. The UI constraints is a function to avoid the inhibitionsetting by the GUI. For example, it is used to avoid that the usererroneously sets the duplex copy to an OHP sheet or, in the case of theprinter with the staple sorter, such a process for stapling by groupsort (output format in which the same pages are output like 111, 222,333, . . . to each sort bin) is prevented on the GUI, or there is also acase where a combination which can give a damage to the printer side isprevented.

For example, generally, a paper jam is likely caused in the case wherethe printer is not designed so as to endure the paper whose paper pathis small if the duplex copy mode is set to small paper whose size isequal to or less than the A5 size, a statement size, or the like.

According to such a function, if such an operation is repetitivelyexecuted, since a damage can be given to the printer side, when the usertries to execute such an operation, it is inhibited or prevented.

However, according to the UI constraints in the PPD file, although suchan operation can be generally inhibited for two dimensions (combinationof two functions), it is difficult to inhibit such an operation in thecase of a three or more dimensions (combination of three or morecomplicated functions). However, since the job submit page is describedby an HTML (Hyper Text Markup Language), even in the case of acombination of three or more functions, a restriction can be easilyadded. In the case of the general drivers which are provided by the PPD(for example, the drivers for Windows(™) 95, 98, and Me made byMicrosoft Corporation, the drivers made by Adobe Systems Inc.),restrictions are often previously added to the size capacity of the PPD.If the PPD is created so as to exceed the size capacity, a part of thefunctions of the UI constraints cannot be restricted. However, in thecase of the HTML description, there is such an advantage that there isnot particularly the size restriction.

<Configuration Tab 4104>

FIGS. 25 to 27 are diagrams each showing an example of a detail displayscreen of the configuration tab of the Web Browser screen shown in FIG.18 and the same component elements as those in FIG. 18 are designated bythe same reference numerals.

In FIGS. 25 to 27, reference numeral 4104 denotes the configuration tabconstructed by an archive key 4401, a disk cleanup configuration key4402, and an E-mail notify configuration key 4403. Each tab will bedescribed hereinbelow.

<Archive Configuration>

The archive (data storage) of the job will now be described.

FIG. 25 shows an archive configuration GUI display screen. This screenappears when the archive key 4401 is clicked. Print jobs, fonts,templates for a page layout, and a password of the client user can bestored here. Reference numeral 4411 denotes a path setting of thedirectory for storing them.

Reference numeral 4412 denotes an archive and restore (calling of thestored data) key of each of them. With this key, data to be archived inthe directory is designated and the data is written (archive) and readout (restore) into/from a readable/writable media such as file server,CD-R/W, or the like in the network.

<Disk Cleanup Configuration>

In FIG. 26, the key 4402 is a disk cleanup configuration for assuring adisk space in the MFP 104 (or 105). By clicking the key 4402, the GUIscreen can be called.

Reference numeral 4421 denotes a check box for the setting to decidewhether an auto disk cleanup function is valid or invalid. If this checkbox is marked, in other words, if this function is valid, buttons 4422and 4423 appear. Reference numeral 4422 denotes a button for schedulingthe cleanup and this button provides such a function that if anexcessive number of jobs were held, the jobs are erased in accordancewith the disk space, the number of days, or the number of jobs.

Reference numeral 4423 denotes a button for setting a cleanup method andthis button provides such a function that it is possible to preset amode to erase all related files, a mode to erase only a printer readyfile of a large size, a mode to erase the files in accordance with thefile sizes, or the like.

In FIG. 26, when the E-mail notify configuration key 4403 is clicked,the screen is switched to a GUI screen shown in FIG. 27 and the controlis executed. An example in which a display screen for previously settinga contact address in the case where a certain event occurs by the E-mailaddress is shown here.

<Workflow Tab 4105>

FIG. 28 is a diagram showing an example of a detail display screen ofthe workflow tab 4105 of the Web Browser screen shown in FIG. 18 and thesame component elements as those in FIG. 18 are designated by the samereference numerals.

Since its operating method is almost similar to that of FIG. 18 exceptfor a column to set a number 4500 of the workflow box in the displayscreen, the operation processes are omitted here.

Naturally, since the Web Browser merely displays the situation in theMFP, the contents set by the MFP operation unit can be confirmed andedited by the Web Browser of FIG. 28 and, contrarily, the contents setby the Web Browser can be also confirmed and edited by the MFP operationunit.

<Web Server and FTP Server>

In the case of using the HTTP protocol, the workflows have to be set inorder in accordance with the predetermined pattern and its operabilityis slightly troublesome.

Therefore, not only the Web server but also the FTP server is arrangedin parallel in the MFP 104 (or 105). For example, in the case of theIIST (Internet Information Services) of Microsoft Corporation, there isa WWW Publishing Service as a Web server and there is an FTP PublishingService as an FTP server. Both of those services are validated.

The workflow boxes are prepared in the access directory of the FTPserver and a security level, write permission, and the like are presetas necessary, thereby enabling them to be accessed from the clientcomputer 103 side. A link is connected from the Web Browser page asshown in FIG. 28, thereby enabling the page to be easily transferred tothe FTP page.

<Creation of Workflow>

FIGS. 29 to 35 are diagrams schematically showing a transition exampleof a workflow creation operation screen in the data processing apparatusaccording to the invention. Each arrow shown by a curve in the diagramindicates a locus of a pointing device and corresponds to the statewhere, for example, the user properly traces on the folder by acontinuous instruction.

The workflow order denotes a series of flows of the operation regardinga predetermined work (including operating order). In the embodiment, aseries of flows of the instructions to the apparatus which havepreviously been standardized in accordance with the work contents isalso referred to as a workflow.

In those diagrams, first, a file 5102 is selected by a pointer 5101. Atthis time, it is continuously selected by the pointer 5101 so as not torelease the file (dragging state is maintained). For example, when thepointing device is constructed by a mouse, the file is clicked by theleft button (if the button is designated to an object select button andit has been customized, it can be replaced with the right button) andthe file is moved while pressing the button.uchiwa In the case ofWindows(™) of Microsoft Corporation in U.S.A. or LinuxOS, for example,the left button of the mouse can be used or the file can be alsoselected by the right button. Even in the case of other OSs or apointing device other than the mouse, the mechanism itself for movingthe file in the selection state is not changed.

Subsequently, the file is continuously moved in the selection state asif the user traced on a desired box like a track TR shown by a dottedcurve in FIG. 29.

Although the box mentioned here is ordinarily called a folder in thecase of the OS, a case where it is made operative on the operation unitof the MFP or a case where it is made operative on the application isalso presumed and the folder is expressed as a box in consideration ofall cases. Icons and the like other than the folders can be also appliedto the scope of the invention.

In this instance, as shown in FIG. 30, a workflow window 5201 appears asa subscreen and the boxes which were passed along the track drawn by theuser himself appear in order in the workflow window. That is, when thetrack TR passes in order of (1) a 2up folder, (2) a duplex folder, and(3) a staple folder, icons of the boxes also appear simultaneously inthe workflow window 5201 in order of (1) 2up, (2) duplex, and (3)staple.

It is also possible to arbitrarily construct in such a manner that whenthe folder icon passes, the boxes appear in the workflow window and, atthe same time, also in a main window, the display is controlled so as tochange the colors of the boxes which were already passed or the displayis controlled so as to add a mark indicating that the box has beenpassed, thereby enabling such boxes to be visually recognized.

When the operation to release the selected file is executed by thepointing device after the box (folder) of (3) staple was passed, a flowend confirmation screen 5301 appears simultaneously as shown in FIG. 31.If the flow is finished, the flow creation is finished by clicking an OKkey 5302 by the pointing device (not shown). If the file is valid, theprocessing routine is started as it is by the flow formed now.

If an NG key 5303 shown in a display screen of FIG. 31 is clicked, theflow can be corrected in the workflow window (that is, a correction modecan be executed). The flow creation is finished in a manner similar tothe OK key 5302 at the end point of the correction and the processingroutine is started.

When the user wants to interrupt the processing routine, the foldercreating process can be also forcedly finished by waiting for anoperation instruction of a cancel button (not shown).

<Correction, Inhibition, Branch of Workflow>

If the user further wants to correct the flow, as shown in FIG. 32, forexample, when the duplex box is passed twice continuously, that is,although the track TR crosses in the example of FIG. 32, even in anotherinstructing state, when the duplex box is passed twice continuously,even if the file erroneously passed the formed flow (duplex box)subsequently to the 2up folder, such a selecting state can be cancelled.

At this time, in the main window, there is executed display control toreturn the colors of the boxes whose colors were changed due to thepassage to the original colors or display control to cancel the markshowing that the file has passed the boxes if any (it is assumed thatthe CPU on the client computer 103 side controls by referring to arelation table between indication coordinate information of the pointingdevice and folder location information which has previously beenregistered).

Specifically speaking, for example, when 2up is selected, naturally,1up, 4up, and 8up cannot be selected. When the duplex printing isselected, naturally, the simplex printing cannot be selected (it isassumed that they have exclusively been set by folder selection relationtable (not shown)). Therefore, a table is formed in such a manner thatthe pointer 5101 erroneously and previously collects the boxes of thesame function into a group and exclusively handles them by the operationof the pointing device, when the pointer passes through 2up, as shown inFIG. 33, the passage through 1up, 4up, and 8up is inhibited (a passageinhibit icon is additionally displayed in a predetermined position ofthe folder) or an exclamation mark (!) is additionally displayed,thereby making it possible to warn the erroneous operation for thefolder selecting operation by the user.

FIG. 33 shows a case of an example in which since 2up and (1up, 4up, and8up) are exactly exclusive in the case of, a passing inhibit mark iconBAT is added to 1up, 4up, and 8up or the colors of the boxes arechanged. However, in the case of a group sorting function and a bookletfunction, although they are not always functionally exclusive, sincetheir combination is unnatural, display control for adding theexclamation mark (!) AL to the boxes in the main window and/or theworkflow window 5201 is executed, thereby coping with the state wherethe user is visually urged to pay attention to the present operation.

Since a branch is sometimes necessary for the workflow, in the case ofpassing through the boxes in the portion to be branched as shown inFIGS. 34 and 35 (for example, between (3) and (4)), the file is allowedto pass from a keyboard (not shown) while pressing a shift key or acontrol key (in the case of the Windows(™) OS, a function key or an ALTkey, in the case of the Macintosh(™) MacOS, a command key or the likecan be also used), or the like.

At this time, display control to add branch marks (+ marks in theexample shown in FIG. 35) to the boxes in the main window is executed ordisplay control to change the colors is executed, thereby enabling thoseboxes to be visually recognized. At the same time, addition of thebranch mark, the color change, or the like is also performed to theworkflow window 5201.

<Flow to Create the Workflow>

FIG. 36, which is composed of FIGS. 36A and 36B, is a flowchart showingan example of a fourth data processing procedure in the data processingapparatus according to the invention and corresponds to an example ofthe workflow creation processing procedure. S5701 to S5710 denoteprocessing steps of the main window and S5721 to S5727 and S5731 toS5733 denote processing steps of the workflow window.

First, as shown in FIG. 29, the file 5102 is selected by the pointer(S5701) by operating the pointing device (not shown) connected to theclient computer 103. The workflow window 5201 is opened (S5721). Thefile icon 5102 is written into the workflow window 5201 (S5722).

Subsequently, it is confirmed that the file is being continuouslyselected by the pointer (S5703). Position information (coordinates) isconfirmed in association with the movement of the pointer (S5704). Atthis time, a table (not shown) in which the names and positioninformation (coordinates) of the boxes where the boxes (folder icons) ofthe main window are arranged have previously been described is held andprepared in the memory apparatus. With reference to this table, whetheror not the pointer has passed on the boxes is discriminated (S5706). Ifit is determined that the pointer does not pass, the processing routineis returned to step S5703.

If it is determined in step S5706 that the pointer has passed, whetheror not the branch information has been input is further discriminated(S5707). If it is determined that the branch information is not input,step S5709 follows. If it is determined that the branch information hasbeen input, a branch flag (branch information flag) is set to the highlevel (S5708) and step S5709 follows. The names and thefunctions/processes of the passed boxes are obtained (S5909) byreferring to the above table. With respect to the boxes which areexclusive to the passed boxes, a warning of the passage inhibition orpassage attention is displayed by adding the icons BAT or the like asnecessary as shown in FIG. 33 (S5710) and step S5723 follows.

In the display control of the workflow window 5201, whether or not thebranch flag has been set to the high level is discriminated in stepS5723 or the like. If it is determined that the branch flag has been setto the high level, the branch window is displayed (S5727) and theprocessing routine is returned to step S5703.

If it is determined in step S5723 that the branch information flag isnot set to the high level, whether or not the file has passed throughthe same box twice is further discriminated (S5724). If it is determinedthat the file has passed through the same box twice (the case where thebox information is the same as one-previous information), the box iconadded just before is deleted (S5726) and the processing routine isreturned to step S5703.

If it is determined in step S5724 that the file has passed for the firsttime, a box icon is simply added (S5725) and the processing routine isreturned to step S5703.

If it is determined in step S5703 that the selected file has beenreleased, whether or not the flow creation is finished is discriminated(S5731). If it is determined that the flow creation is not finished, theprocessing routine is returned to step S5702. As shown in FIG. 29, thefile is selected again by the pointer 5101 and the processes in stepS5703 and subsequent steps are repeated.

If it is determined in step S5731 that the creation of the flow isfinished, whether or not it is necessary to correct the flow isdiscriminated (S5733). If it is determined that it is unnecessary tocorrect the flow, the processing routine is finished.

If it is determined in step S5732 that it is necessary to correct theflow, the flow is corrected in step S5733 and the processing routine isreturned to step S5732.

When this flow is finished, the selected file can be processed in theMFP in accordance with the created flow or the process of the file canbe also started by using something as a trigger.

Second Embodiment

Although the above first embodiment has been described with respect tothe case of executing the folder creating process with respect to thecase where the boxes are loosely arranged with margins in the mainwindow, as shown in FIG. 37, if the boxes (in the case where there are alarge number of boxes) existing in the main window are jammed oroverlaid, there is a risk of occurrence of a situation such as doublepassing or defective passing of the box. Therefore, it is assumed thatin a work space window (or on a desktop) to create the workflow, forexample, as shown in FIG. 38, the coordinate information to decide theminimum folder location interval is always set in a restriction tableset in the location and the layout display is controlled so as tocontrol the locations of the boxes on the basis of the coordinateinformation to decide the minimum folder location interval.

FIG. 38 is a diagram schematically showing an example of a folderlocation administration table at the time of creation of the workflowwhich is administrated in the client computer 103 shown in FIG. 1. Thistable is administrated every mode.

In FIG. 38, Mode A corresponds to a mode in which the folders can bealigned and arranged as shown in FIG. 31 and Mode B corresponds to amode in which a number of folders are arranged at the minimum intervalas shown in FIG. 37.

ΔX denotes a length in the X direction of the folder, ΔY a length in theY direction of the folder, XO a minimum interval of the folders whichcan be arranged in the X direction, and YO a minimum interval of thefolders which can be arranged in the Y direction, respectively. Byadjusting the layout intervals of the folders as mentioned above, such asituation that the file erroneously passes through the folders anddiscriminating performance of the folder names deteriorates at the timeof the drag operation by the file can be prevented.

It is assumed that the layout positions of the folder names of theadjacent folders have also been administrated every mode so that thefolder names are arranged so as not to be overlaid.

Specifically speaking, since there is a similar risk even if the namesof the boxes are too long, it is assumed to make control to restrict thelengths of names. When the folders are defined, the maximum value of thenumber of characters of the box name is set as a default. If the inputname is equal to or less than the number of characters of the maximumvalue with reference to its numerical value, the input is validated andthe display control is made.

Third Embodiment

In the case where the user intends to use the workflow many times,“store flow” has to be set on the workflow window after the flow wascreated in the first embodiment. To omit such a troublesomeness, asshown in FIG. 39, a workflow folder 5901 is prepared every user, a dummyfile such as a workflow file 5902 is selected, and a flow is created bya method similar to that in the first embodiment. At last, the workflowfile 5902 is dragged and dropped to the workflow folder 5901.

After that, if there is a file to be processed in this workflow, thesame workflow process can be obtained by directly dragging and droppingthe workflow folder 5901.

As shown in FIG. 40, the workflow created here is constructed in such amanner that as one option of the workflow tab 4105, the order and thefunctions/processing contents of the workflows can be seen and the flowcan be also corrected.

Fourth Embodiment

The workflow creating method is not limited to the MFP. Although theexample of creating the workflow while seeing the contents in the FTPserver in the MFP has been shown in the first embodiment, whenconsidering the work regarding the creating method, it will beunderstood that even if the similar work is executed on whichever folder(or desktop) in the client computer, the workflow can be created.

Although its operating method has been shown as an example using themouse and the keyboard of the computer, it will be understood that evenif a finger is regarded as a pointer and the operation is performed inthe LCD display unit of the touch-panel on the operation unit of theMFP, the similar operation is also executed.

Further, it will be also understood that the operability on theapplication software is valid without limiting to the operability in theoperation of the folders of the client computer. Naturally, theinvention can be also applied to means for simply deciding a series ofcombinations or order without limiting to the method of creating theworkflow.

Although the branch process based on the example of the folder creatingprocess by the Web Browser which is displayed on the display unit of theclient computer 103 has been described in the first embodiment as shownin FIG. 35, the folder creating process can be also easily applied tothe case where the continuous operating procedure necessary in theordinary application is continuously executed in accordance with theselection track of the folders in which the functions have been set bythe pointer. That is, the technique of the invention can be applied to asystem, an electronic apparatus, and the like in which the operatinginstructions are not sequentially executed by various icons or the likebut the icons traced as a track by the pointer are sequentiallydetermined as selection execution order and the decided various functionprocesses are continuously executed.

For example, FIG. 41 shows the case where the invention is applied to aflowchart creating process according to a flowchart creation processingapplication.

FIG. 41 is a diagram showing an example of execution of the applicationin the data processing apparatus showing the fourth embodiment of theinvention and corresponds to the case where the application is aflowchart creating application.

In FIG. 41, in the case where the pointer of the pointing device (notshown) has continuously passed through function process objects(templates) 6101, if it is determined that the passed objects areobjects (1) to (6), the client computer 103 compares layout informationof the objects registered in a reference table linked to the applicationwith passing coordinates of the pointer and processes them in accordancewith the monitoring step shown in FIG. 36. Thus, a flowchart with whichthe objects are coupled can be layout-displayed in consideration of aspace (which is determined by the selected paper size) of a figuredrawing processing area, that is, a flowchart working space 6102.

For example, in the case of presuming the application describing theflowchart as shown in FIG. 41, if the objects in the templates 6101 aretraced by the pointer (not shown) in order from (1) to (2), the flow isdrawn and displayed in the flowchart working space 6102 in a mannersimilar to that in the first embodiment.

However, with respect to the object (5), the condition branch portion isshown as (5)+ and it shows that a shift key or the like has beenpressed. Unlike the case of creating the workflow, naturally, it isnecessary to form such a new rule that the folder is not deleted even ifthe file passed through the same template twice, or the like.

Fifth Embodiment

Although the arranged folders can be selected by the user in arbitraryorder in the above embodiments, it is also possible to construct thesystem in such a manner that when the file passed on the folders inorder different from the execution order registered in a table whichadministrates the function execution order in accordance with thefunction selection or the like, a warning mark is displayed on thescreen.

According to the above embodiments, the workflow can be created atbetter operating efficiency, the job of the same workflow can be easilyprocessed, and the working efficiency can be improved by forming a newworkflow box and storing or reusing the formed box.

A construction of data processing programs which can be read out by theimage processing system according to the invention will be describedhereinbelow with reference to a memory map shown in FIG. 42.

FIG. 42 is a diagram for explaining the memory map of a storage mediumfor storing various data processing programs which can be read out bythe image processing apparatus according to the invention.

Although not particularly shown, there is also a case where informationfor administrating the program group which is stored in the storagemedium, for example, version information, implementors, and the like arealso stored and information depending on the OS or the like of theprogram reading side, for example, icons to identify and display theprograms or the like are also stored.

Further, data depending on the various programs is also administrated inthe directory. There is also a case where a program to install thevarious programs into the computer or, if the installing program hasbeen compressed, a program for decompressing it or the like is alsostored.

The functions shown in FIGS. 7, 11, 17A and 17B, and 36A and 36B in theembodiments are executed by a host computer by a program that isinstalled from the outside. In such a case, the invention is alsoapplied to the case where an information group including the programs issupplied to an output apparatus by a storage medium such as CD-ROM,flash memory, FD, or the like or from an external storage medium throughthe network.

Naturally, the objects of the invention are also accomplished by amethod whereby the storage medium in which program codes of software torealize the functions of the above embodiments have been recorded asmentioned above is supplied to a system or an apparatus and a computer(or a CPU or an MPU) of the system or the apparatus reads out andexecutes the program codes stored in the storage medium.

In such a case, the program codes themselves read out from the storagemedium realize the new functions of the invention and the storage mediumin which the program codes have been stored constructs the invention.

Therefore, the invention is not limited to a form of the program but canbe applied to any form such as object codes, program which is executedby an interpreter, script data which is supplied to the OS, or the likeso long as they have the functions of the programs.

As a storage medium for supplying the programs, for example, it ispossible to use a flexible disk, a hard disk, an optical disk, amagnetooptic disk, an MO, a CD-ROM, a CD-R, a CD-RW, a magnetic tape, anon-volatile memory card, a ROM, a DVD, or the like.

In this case, the program codes themselves read out from the storagemedium realize the functions of the embodiments mentioned above and thestorage medium in which the program codes have been stored constructsthe invention.

As a program supplying method, the program can be also supplied byanother method whereby the system is connected to homepage on theInternet by using the browser of the client computer and the computerprogram of the invention or the compressed file including the automaticinstalling function is downloaded into a recording medium such as a harddisk or the like from the homepage. The program supplying method can bealso realized by a method whereby the program codes constructing theprogram of the invention are divided into a plurality of files and eachfile is downloaded from a different homepage. That is, a WWW server, anftp server, or the like for allowing the program file for realizing thefunction processes of the invention by the computer to be downloaded toa plurality of users is also contained in Claims of the invention.

The program supplying method can be also realized by a method wherebythe program of the invention is encrypted, stored into the storagemedium such as a CD-ROM or the like, and distributed to the users, theusers who can clear predetermined conditions are allowed to download keyinformation for decrypting the encryption from the homepage through theInternet, and the encrypted program is executed by using the keyinformation and installed into the computer, thereby realizing thefunctions of the embodiments mentioned above.

Naturally, the invention incorporates not only the case where thecomputer executes the read-out program codes, so that the functions ofthe embodiments mentioned above are realized but also the case where theOS (Operating System) or the like which operates on the computerexecutes a part or all of actual processes on the basis of instructionsof the program codes and the functions of the embodiments mentionedabove are realized by those processes.

Further, naturally, the invention also incorporates the case where theprogram codes read out from the storage medium are written into a memoryprovided for a function expanding board inserted in the computer or afunction expanding unit connected to the computer, thereafter, a CPU orthe like provided for the function expanding board or the functionexpanding unit executes a part or all of actual processes on the basisof instructions of the program codes, and the functions of theembodiments mentioned above are realized by those processes.

As many apparently widely different embodiments of the present inventioncan be made without departing from the spirit and scope thereof, it isto be understood that the invention is not limited to the specificembodiments thereof except as defined in the appended claims.

This application claims priority from Japanese Patent Application No.2003-383652 filed on Nov. 13, 2003, which is hereby incorporated byreference herein.

1. An information processing apparatus for executing predeterminedprinting processes to a file, comprising: a display unit adapted todisplay a plurality of display portions associated with a plurality ofprinting processes which can be executed to said file; an input unitadapted to input a moving instruction to the file which is displayed onsaid display unit; a detecting unit adapted to detect that said filewhich is moved by said moving instruction input by said input unit haspassed through said plurality of display portions which are displayed bysaid display unit; and a control unit adapted to control so as toexecute the printing processes regarding said display portions throughwhich said file has passed to said file on the basis of a result of thedetection by said detecting unit.
 2. An information processing apparatusaccording to claim 1, wherein, when said input unit cancels the movinginstruction to said file, said control unit controls so as to executethe printing processes regarding said display portions through whichsaid file has passed before said moving instruction is cancelled.
 3. Aninformation processing apparatus according to claim 1, wherein, whensaid detecting unit detects that said file has passed through saiddisplay portions, said display unit displays information regarding saidpassed display portions.
 4. An information processing apparatusaccording to claim 1, wherein, when said detecting unit detects thatsaid file has passed through a first display portion among saidplurality of display portions, said display unit makes a difference in adisplay state of a second display portion regarding the printing processwhich cannot be executed together with the printing processcorresponding to said first display portion.
 5. An informationprocessing apparatus according to claim 1, wherein, when said detectingunit detects the passage of said file through said second displayportion after it detected the passage of said file through said firstdisplay portion, said control unit inhibits execution of the printingprocess regarding a second display portion, the printing processregarding which cannot be executed together with the printing processcorresponding to said first display portion.
 6. An informationprocessing apparatus according to claim 1, wherein, after said detectingunit detected that said file passed through a first display portionamong said plurality of display portions, if it detects that said filefurther has passed through said first display portion, said control unitinhibits execution of the printing process regarding said first displayportion.
 7. An information processing apparatus according to claim 1,further comprising a setting unit adapted to set,at least one of theprinting processes to be executed to said display portions, and whereinsaid control unit allows said printing process set by said setting unitto be executed to said display portions through which said file haspassed.
 8. An information processing apparatus according to claim 1,further comprising a transmitting unit adapted to transmit print dataregarding said file to a printing apparatus, and wherein said controlunit controls said transmitting unit so as to transmit a command forallowing said printing apparatus to execute said printing process on thebasis of a result of the detection by said detecting unit.
 9. Aninformation processing apparatus according to claim 1, furthercomprising a storage unit adapted to store said file, and wherein saidfile is stored in a directory format into said storage unit.
 10. Aninformation processing apparatus according to claim 1, furthercomprising a second input unit adapted to make a branch instruction tosaid file together with the moving instruction to the file by said inputunit, and wherein when said detecting unit detects that said file towhich said branch instruction is input has passed through a first one ofsaid display portions, said control unit allows the printing processregarding said first display portion to be executed in parallel with theprinting process regarding a second display portion in which the passagehas already been detected by said detecting unit.
 11. An informationprocessing apparatus according to claim 1, wherein said display unitdisplays said plurality of display portions at least at predeterminedintervals.
 12. A printing apparatus for executing predetermined printingprocesses to a file, comprising: a print unit adapted to execute thepredetermined printing processes to said file and printing an image ontoa sheet; a display unit adapted to display a plurality of displayportions regarding a plurality of printing processes which can beexecuted by said print unit to said file; an input unit adapted to inputa moving instruction to the file which is displayed onto said displayunit; a detecting unit adapted to detect that said file which is movedby the moving instruction input by said input unit has passed throughsaid plurality of display portions displayed by said display unit; and acontrol unit adapted to control said print unit so as to execute theprinting processes regarding said display portions through which saidfile has passed to said file on the basis of a result of the detectionby said detecting unit.
 13. A printing apparatus according to claim 12,wherein, when said input unit cancels the moving instruction to saidfile, said control unit controls so as to execute the printing processesregarding said display portions through which said file has passedbefore said moving instruction is cancelled.
 14. A printing apparatusaccording to claim 12, wherein, when said detecting unit detects thatsaid file has passed through said display portions, said display unitdisplays information regarding said passed display portions.
 15. Aprinting apparatus according to claim 12, wherein, when said detectingunit detects that said file has passed through a first display portionamong said plurality of display portions, said display unit makes adifference in a display state of a second display portion regarding theprinting process which cannot be executed together with the printingprocess corresponding to said first display portion.
 16. A printingapparatus according to claim 12, wherein, when said detecting unitdetects the passage of said file through said second display portionafter it detected the passage of said file through said first displayportion, said control unit inhibits execution of the printing processregarding said second display portion, the printing process regardingwhich cannot be executed together with the printing processcorresponding to said first display portion.
 17. A printing apparatusaccording to claim 12, wherein, after said detecting unit detected thatsaid file passed through a first display portion among said plurality ofdisplay portions, if it detects that said file further has passedthrough said first display portion, said control unit inhibits executionof the printing process regarding said first display portion.
 18. Aprinting apparatus according to claim 12, further comprising a settingunit adapted to set at least one of the printing processes to beexecuted to said display portions, and wherein said control unit allowssaid printing process set by said setting-unit to be executed to saiddisplay portions through which said file has passed.
 19. A printingapparatus according to claim 12, further comprising a storage unitadapted to store said file, and wherein said file is stored in adirectory format into said storage unit.
 20. A printing apparatusaccording to claim 12, further comprising a second input unit adapted tomake a branch instruction to said file together with a movinginstruction to the file by said input unit, and wherein when saiddetecting unit detects that said file to which said branch instructionis input has passed through a first one of said display portions, saidcontrol unit allows the printing process regarding said first displayportion to be executed in parallel with the printing process regarding asecond display portion in which the passage has already been detected bysaid detecting unit.
 21. A printing apparatus according to claim 12,wherein said display unit displays said plurality of display portions atleast at predetermined intervals.
 22. A control method for aninformation processing apparatus for executing predetermined printingprocesses to a file, comprising: a display step of displaying aplurality of display portions associated with a plurality of printingprocesses which can be executed to said file; an input step of inputtinga moving instruction to the file which is displayed in said displaystep; a detecting step of detecting that said file which is moved bysaid moving instruction input by said input step has passed through saidplurality of display portions which are displayed by said display step;and a control step of controlling so as to execute the printingprocesses regarding said display portions through which said file haspassed to said file on the basis of a result of the detection by saiddetecting step.
 23. A control method for a printing apparatus forexecuting predetermined printing processes to a file, comprising: aprint step of executing the predetermined printing processes to saidfile and printing an image onto a sheet; a display step of displaying aplurality of display portions regarding a plurality of printingprocesses which can be executed by said print step to said file; aninput step of inputting a moving instruction to the file which isdisplayed by said display step; a detecting step of detecting that saidfile which is moved by the moving instruction input by said input stephas passed through said plurality of display portions displayed in saiddisplay step; and a control step of controlling said print step so as toexecute the printing processes regarding said display portions throughwhich said file has passed to said file on the basis of a result of thedetection by said detecting step.